Witnessing nonclassical multipartite states

TL;DR

This paper introduces a new witness for detecting nonclassical multipartite states based on local measurement disturbance, applicable to quantum spin chains and capable of indicating quantum phase transitions.

Contribution

It presents a non-extremizing witness operator for nonclassicality, applicable to Z_2-symmetric systems, and links it to quantum phase transition detection in spin chains.

Findings

Witness coincides with nonzero global quantum discord.

Classicality requires zero magnetization or isotropic two-point functions.

Witness detects second-order quantum phase transitions.

Abstract

We investigate a witness for nonclassical multipartite states based on their disturbance under local measurements. The witness operator provides a sufficient condition for nonclassicality that coincides with a nonvanishing global quantum discord, but it does not demand an extremization procedure. Moreover, for the case of Z_2-symmetric systems, we rewrite the witness in terms of correlation functions so that classicality is found to necessarily require either vanishing magnetization in the invariant axis or isotropy of the two-point function in the transverse spin plane. We illustrate our results in quantum spin chains, where a characterization of factorized ground states (with spontaneously broken Z_2 symmetry) is achieved. As a by-product, the witness will also be shown to indicate a second-order quantum phase transitions, which will be illustrated both for the XY and Ashkin-Teller spin chains.